#pragma once
// -------------------------------------------------
// BlinKit - blink Library
// -------------------------------------------------
//   File Name: WTFString.h
// Description: String Class
//      Author: Ziming Li
//     Created: 2021-06-26
// -------------------------------------------------
// Copyright (C) 2021 MingYang Software Technology.
// -------------------------------------------------

/*
 * (C) 1999 Lars Knoll (knoll@kde.org)
 * Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2012, 2013 Apple Inc. All rights reserved.
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Library General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library General Public License
 * along with this library; see the file COPYING.LIB.  If not, write to
 * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
 * Boston, MA 02110-1301, USA.
 *
 */

#ifndef WTFString_h
#define WTFString_h

// This file would be called String.h, but that conflicts with <string.h>
// on systems without case-sensitive file systems.

#include <algorithm>
#include <iosfwd>
#include "blinkit/blink/renderer/wtf/Allocator.h"
#include "blinkit/blink/renderer/wtf/HashTableDeletedValueType.h"
#include "blinkit/blink/renderer/wtf/WTFExport.h"
#include "blinkit/blink/renderer/wtf/testing/WTFUnitTestHelpersExport.h"
#include "blinkit/blink/renderer/wtf/text/ASCIIFastPath.h"
#include "blinkit/blink/renderer/wtf/text/StringImpl.h"
#include "blinkit/blink/renderer/wtf/text/StringView.h"

#ifdef __OBJC__
#include <objc/objc.h>
#endif

namespace WTF {

class CString;
struct StringHash;

// Declarations of string operations

WTF_EXPORT int charactersToIntStrict(const LChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT int charactersToIntStrict(const UChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT unsigned charactersToUIntStrict(const LChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT unsigned charactersToUIntStrict(const UChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT int64_t charactersToInt64Strict(const LChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT int64_t charactersToInt64Strict(const UChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT uint64_t charactersToUInt64Strict(const LChar*, size_t, bool* ok = 0, int base = 10);
WTF_EXPORT uint64_t charactersToUInt64Strict(const UChar*, size_t, bool* ok = 0, int base = 10);

WTF_EXPORT int charactersToInt(const LChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT int charactersToInt(const UChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT unsigned charactersToUInt(const LChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT unsigned charactersToUInt(const UChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT int64_t charactersToInt64(const LChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT int64_t charactersToInt64(const UChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT uint64_t charactersToUInt64(const LChar*, size_t, bool* ok = 0); // ignores trailing garbage
WTF_EXPORT uint64_t charactersToUInt64(const UChar*, size_t, bool* ok = 0); // ignores trailing garbage

// FIXME: Like the strict functions above, these give false for "ok" when there
// is trailing garbage.  Like the non-strict functions above, these return the
// value when there is trailing garbage.  It would be better if these were more
// consistent with the above functions instead.
WTF_EXPORT double charactersToDouble(const LChar*, size_t, bool* ok = 0);
WTF_EXPORT double charactersToDouble(const UChar*, size_t, bool* ok = 0);
WTF_EXPORT float charactersToFloat(const LChar*, size_t, bool* ok = 0);
WTF_EXPORT float charactersToFloat(const UChar*, size_t, bool* ok = 0);
WTF_EXPORT float charactersToFloat(const LChar*, size_t, size_t& parsedLength);
WTF_EXPORT float charactersToFloat(const UChar*, size_t, size_t& parsedLength);

enum TrailingZerosTruncatingPolicy {
    KeepTrailingZeros,
    TruncateTrailingZeros
};

enum UTF8ConversionMode {
    LenientUTF8Conversion,
    StrictUTF8Conversion,
    StrictUTF8ConversionReplacingUnpairedSurrogatesWithFFFD
};

#define DISPATCH_CASE_OP(caseSensitivity, op, args)                     \
    ((caseSensitivity == TextCaseSensitive) ? op args :                 \
     (caseSensitivity == TextCaseASCIIInsensitive) ? op##IgnoringASCIICase args : \
     op##IgnoringCase args)

template<bool isSpecialCharacter(UChar), typename CharacterType>
bool isAllSpecialCharacters(const CharacterType*, size_t);

// You can find documentation about this class in this doc:
// https://docs.google.com/document/d/1kOCUlJdh2WJMJGDf-WoEQhmnjKLaOYRbiHz5TiGJl14/edit?usp=sharing
class String
{
public:
    // Construct a null string, distinguishable from an empty string.
    String() { }

    // Construct a string with UTF-16 data.
    String(const UChar* characters, unsigned length);

    // Construct a string by copying the contents of a vector.
    // This method will never create a null string. Vectors with size() == 0
    // will return the empty string.
    // NOTE: This is different from String(vector.data(), vector.size())
    // which will sometimes return a null string when vector.data() is null
    // which can only occur for vectors without inline capacity.
    // See: https://bugs.webkit.org/show_bug.cgi?id=109792
    template<size_t inlineCapacity>
    explicit String(const Vector<UChar, inlineCapacity>&);
    explicit String(const std::vector<UChar> &v)
        : m_impl(v.empty() ? StringImpl::empty() : StringImpl::create(v.data(), v.size()))
    {
    }

    // Construct a string with UTF-16 data, from a null-terminated source.
    String(const UChar*);

    // Construct a string with latin1 data.
    String(const LChar* characters, unsigned length);
    String(const char* characters, unsigned length);

    // Construct a string with latin1 data, from a null-terminated source.
    String(const LChar* characters);
    String(const char* characters);

    // Construct a string referencing an existing StringImpl.
    String(StringImpl* impl) : m_impl(impl) { }
    String(PassRefPtr<StringImpl> impl) : m_impl(impl) { }

    void swap(String& o) { m_impl.swap(o.m_impl); }

    template<typename CharType>
    static String adopt(StringBuffer<CharType>& buffer)
    {
        if (!buffer.length())
            return StringImpl::empty();
        return String(buffer.release());
    }

    bool isNull() const { return !m_impl; }
    bool isEmpty() const { return !m_impl || !m_impl->length(); }

    StringImpl* impl() const { return m_impl.get(); }
    PassRefPtr<StringImpl> releaseImpl() { return m_impl.release(); }

    unsigned length() const
    {
        if (!m_impl)
            return 0;
        return m_impl->length();
    }

    const LChar* characters8() const
    {
        if (!m_impl)
            return 0;
        ASSERT(m_impl->is8Bit());
        return m_impl->characters8();
    }

    const UChar* characters16() const
    {
        if (!m_impl)
            return 0;
        ASSERT(!m_impl->is8Bit());
        return m_impl->characters16();
    }

    // Return characters8() or characters16() depending on CharacterType.
    template <typename CharacterType>
    inline const CharacterType* getCharacters() const;

    bool is8Bit() const { return m_impl->is8Bit(); }

    unsigned sizeInBytes() const
    {
        if (!m_impl)
            return 0;
        return m_impl->length() * (is8Bit() ? sizeof(LChar) : sizeof(UChar));
    }

    CString ascii() const;
    CString latin1() const;
    CString utf8(UTF8ConversionMode = LenientUTF8Conversion) const;
    std::string stdUtf8(UTF8ConversionMode = LenientUTF8Conversion) const;

    UChar operator[](unsigned index) const
    {
        if (!m_impl || index >= m_impl->length())
            return 0;
        return (*m_impl)[index];
    }

    static String number(int);
    static String number(unsigned);
    static String number(long);
    static String number(unsigned long);
    static String number(long long);
    static String number(unsigned long long);

    static String number(double, unsigned precision = 6, TrailingZerosTruncatingPolicy = TruncateTrailingZeros);

    // Number to String conversion following the ECMAScript definition.
    static String numberToStringECMAScript(double);
    static String numberToStringFixedWidth(double, unsigned decimalPlaces);

    // Find a single character or string, also with match function & latin1
    // forms.
    size_t find(UChar c, unsigned start = 0) const
        { return m_impl ? m_impl->find(c, start) : kNotFound; }
    size_t find(LChar c, unsigned start = 0) const
        { return m_impl ? m_impl->find(c, start) : kNotFound; }
    size_t find(char c, unsigned start = 0) const { return find(static_cast<LChar>(c), start); }

    size_t find(const String& str) const
        { return m_impl ? m_impl->find(str.impl()) : kNotFound; }
    size_t find(const String& str, unsigned start) const
        { return m_impl ? m_impl->find(str.impl(), start) : kNotFound; }

    size_t find(CharacterMatchFunctionPtr matchFunction, unsigned start = 0) const
        { return m_impl ? m_impl->find(matchFunction, start) : kNotFound; }
    size_t find(const LChar* str, unsigned start = 0) const
        { return m_impl ? m_impl->find(str, start) : kNotFound; }

    size_t findNextLineStart(unsigned start = 0) const
        { return m_impl ? m_impl->findNextLineStart(start) : kNotFound; }

    // Find the last instance of a single character or string.
    size_t reverseFind(UChar c, unsigned start = UINT_MAX) const
        { return m_impl ? m_impl->reverseFind(c, start) : kNotFound; }
    size_t reverseFind(const String& str, unsigned start = UINT_MAX) const
        { return m_impl ? m_impl->reverseFind(str.impl(), start) : kNotFound; }

    // Case insensitive string matching.
    size_t findIgnoringCase(const LChar* str, unsigned start = 0) const
        { return m_impl ? m_impl->findIgnoringCase(str, start) : kNotFound; }
    size_t findIgnoringCase(const String& str, unsigned start = 0) const
        { return m_impl ? m_impl->findIgnoringCase(str.impl(), start) : kNotFound; }

    // ASCII case insensitive string matching.
    size_t findIgnoringASCIICase(const String& str, unsigned start = 0) const
        { return m_impl ? m_impl->findIgnoringASCIICase(str.impl(), start) : kNotFound; }

    // Wrappers for find adding dynamic sensitivity check.
    size_t find(const LChar* str, unsigned start, TextCaseSensitivity caseSensitivity) const
        { return DISPATCH_CASE_OP(caseSensitivity, find, (str, start)); }
    size_t find(const String& str, unsigned start, TextCaseSensitivity caseSensitivity) const
        { return DISPATCH_CASE_OP(caseSensitivity, find, (str, start)); }

    Vector<UChar> charactersWithNullTermination() const;
    unsigned copyTo(UChar* buffer, unsigned pos, unsigned maxLength) const;

    template<size_t inlineCapacity>
    void appendTo(Vector<UChar, inlineCapacity>&, unsigned pos = 0, unsigned len = UINT_MAX) const;

    template<typename BufferType>
    void appendTo(BufferType&, unsigned pos = 0, unsigned len = UINT_MAX) const;

    template<size_t inlineCapacity>
    void prependTo(Vector<UChar, inlineCapacity>&, unsigned pos = 0, unsigned len = UINT_MAX) const;

    UChar32 characterStartingAt(unsigned) const;
    template<typename CharacterType>
    bool contains(CharacterType c) const { return find(c) != kNotFound; }
    bool contains(const LChar* str, TextCaseSensitivity caseSensitivity = TextCaseSensitive) const { return find(str, 0, caseSensitivity) != kNotFound; }
    bool contains(const String& str, TextCaseSensitivity caseSensitivity = TextCaseSensitive) const { return find(str, 0, caseSensitivity) != kNotFound; }

    bool startsWith(const String& s, TextCaseSensitivity caseSensitivity = TextCaseSensitive) const
        { return m_impl ? DISPATCH_CASE_OP(caseSensitivity, m_impl->startsWith, (s.impl())) : s.isEmpty(); }
    bool startsWith(UChar character) const
        { return m_impl ? m_impl->startsWith(character) : false; }
    template<unsigned matchLength>
    bool startsWith(const char (&prefix)[matchLength], TextCaseSensitivity caseSensitivity = TextCaseSensitive) const
        { return m_impl ? DISPATCH_CASE_OP(caseSensitivity, m_impl->startsWith, (prefix, matchLength - 1)) : !matchLength; }

    bool endsWith(const String& s, TextCaseSensitivity caseSensitivity = TextCaseSensitive) const
        { return m_impl ? DISPATCH_CASE_OP(caseSensitivity, m_impl->endsWith, (s.impl())) : s.isEmpty(); }
    bool endsWith(UChar character) const
        { return m_impl ? m_impl->endsWith(character) : false; }
    template<unsigned matchLength>
    bool endsWith(const char (&prefix)[matchLength], TextCaseSensitivity caseSensitivity = TextCaseSensitive) const
        { return m_impl ? DISPATCH_CASE_OP(caseSensitivity, m_impl->endsWith, (prefix, matchLength - 1)) : !matchLength; }

    void append(const String&);
    void append(LChar);
    void append(char c) { append(static_cast<LChar>(c)); }
    void append(UChar);
    void append(const LChar*, unsigned length);
    void append(const char* charactersToAppend, unsigned length) { append(reinterpret_cast<const LChar*>(charactersToAppend), length); }
    void append(const UChar*, unsigned length);
    void insert(const String&, unsigned pos);
    void insert(const LChar*, unsigned length, unsigned pos);
    void insert(const UChar*, unsigned length, unsigned pos);

    String& replace(UChar a, UChar b)
    {
        if (m_impl)
            m_impl = m_impl->replace(a, b);
        return *this;
    }
    String& replace(UChar a, const String& b)
    {
        if (m_impl)
            m_impl = m_impl->replace(a, b.impl());
        return *this;
    }
    String& replace(const String& a, const String& b)
    {
        if (m_impl)
            m_impl = m_impl->replace(a.impl(), b.impl());
        return *this;
    }
    String& replace(unsigned index, unsigned len, const String& b)
    {
        if (m_impl)
            m_impl = m_impl->replace(index, len, b.impl());
        return *this;
    }

    template<unsigned charactersCount>
    ALWAYS_INLINE String& replaceWithLiteral(UChar a, const char (&characters)[charactersCount])
    {
        if (m_impl)
            m_impl = m_impl->replace(a, characters, charactersCount - 1);

        return *this;
    }

    void fill(UChar c)
    {
        if (m_impl)
            m_impl = m_impl->fill(c);
    }

    void ensure16Bit();

    void truncate(unsigned len);
    void remove(unsigned pos, int len = 1);

    String substring(unsigned pos, unsigned len = UINT_MAX) const;
    String left(unsigned len) const { return substring(0, len); }
    String right(unsigned len) const { return substring(length() - len, len); }

    StringView createView() const { return StringView(impl()); }
    StringView createView(unsigned offset, unsigned length) const { return StringView(impl(), offset, length); }

    // Returns a lowercase/uppercase version of the string
    String lower() const;
    String upper() const;

    String lower(const AtomicString& localeIdentifier) const;
    String upper(const AtomicString& localeIdentifier) const;

    String stripWhiteSpace() const;
    String stripWhiteSpace(IsWhiteSpaceFunctionPtr) const;
    String simplifyWhiteSpace(StripBehavior = StripExtraWhiteSpace) const;
    String simplifyWhiteSpace(IsWhiteSpaceFunctionPtr, StripBehavior = StripExtraWhiteSpace) const;

    String removeCharacters(CharacterMatchFunctionPtr) const;
    template<bool isSpecialCharacter(UChar)> bool isAllSpecialCharacters() const;

    // Return the string with case folded for case insensitive comparison.
    String foldCase() const;

    static String format(const char *, ...) WTF_ATTRIBUTE_PRINTF(1, 2);

    // Returns an uninitialized string. The characters needs to be written
    // into the buffer returned in data before the returned string is used.
    // Failure to do this will have unpredictable results.
    static String createUninitialized(unsigned length, UChar*& data) { return StringImpl::createUninitialized(length, data); }
    static String createUninitialized(unsigned length, LChar*& data) { return StringImpl::createUninitialized(length, data); }

    void split(const String& separator, bool allowEmptyEntries, Vector<String>& result) const;
    void split(const String& separator, Vector<String>& result) const
    {
        split(separator, false, result);
    }
    void split(UChar separator, bool allowEmptyEntries, Vector<String>& result) const;
    void split(UChar separator, Vector<String>& result) const
    {
        split(separator, false, result);
    }

    int toIntStrict(bool* ok = 0, int base = 10) const;
    unsigned toUIntStrict(bool* ok = 0, int base = 10) const;
    int64_t toInt64Strict(bool* ok = 0, int base = 10) const;
    uint64_t toUInt64Strict(bool* ok = 0, int base = 10) const;

    int toInt(bool* ok = 0) const;
    unsigned toUInt(bool* ok = 0) const;
    int64_t toInt64(bool* ok = 0) const;
    uint64_t toUInt64(bool* ok = 0) const;

    // FIXME: Like the strict functions above, these give false for "ok" when
    // there is trailing garbage.  Like the non-strict functions above, these
    // return the value when there is trailing garbage.  It would be better if
    // these were more consistent with the above functions instead.
    double toDouble(bool* ok = 0) const;
    float toFloat(bool* ok = 0) const;

    String isolatedCopy() const;
    bool isSafeToSendToAnotherThread() const;

#ifdef __OBJC__
    String(NSString*);

    // This conversion maps null string to "", which loses the meaning of null
    // string, but we need this mapping because AppKit crashes when passed nil
    // NSStrings.
    operator NSString*() const
    {
        if (!m_impl)
            return @"";
        return *m_impl;
    }
#endif

    static String make8BitFrom16BitSource(const UChar*, size_t);
    template<size_t inlineCapacity>
    static String make8BitFrom16BitSource(const Vector<UChar, inlineCapacity>& buffer)
    {
        return make8BitFrom16BitSource(buffer.data(), buffer.size());
    }
    static String make8BitFrom16BitSource(const std::vector<UChar> &buffer)
    {
        return make8BitFrom16BitSource(buffer.data(), buffer.size());
    }

    static String make16BitFrom8BitSource(const LChar*, size_t);

    // String::fromUTF8 will return a null string if
    // the input data contains invalid UTF-8 sequences.
    static String fromUTF8(const LChar*, size_t);
    static String fromUTF8(const LChar*);
    static String fromUTF8(const char* s, size_t length) { return fromUTF8(reinterpret_cast<const LChar*>(s), length); }
    static String fromUTF8(const char* s) { return fromUTF8(reinterpret_cast<const LChar*>(s)); }
    static String fromUTF8(const CString&);
    static String fromStdUTF8(const std::string &s) { return fromUTF8(s.data(), s.length()); }

    // Tries to convert the passed in string to UTF-8, but will fall back to
    // Latin-1 if the string is not valid UTF-8.
    static String fromUTF8WithLatin1Fallback(const LChar*, size_t);
    static String fromUTF8WithLatin1Fallback(const char* s, size_t length) { return fromUTF8WithLatin1Fallback(reinterpret_cast<const LChar*>(s), length); }

    bool containsOnlyASCII() const;
    bool containsOnlyLatin1() const;
    bool containsOnlyWhitespace() const { return !m_impl || m_impl->containsOnlyWhitespace(); }

    // Hash table deleted values, which are only constructed and never copied or
    // destroyed.
    String(WTF::HashTableDeletedValueType) : m_impl(WTF::HashTableDeletedValue) { }
    bool isHashTableDeletedValue() const { return m_impl.isHashTableDeletedValue(); }

#ifndef NDEBUG
    void show() const;
#endif

    // Workaround for a compiler bug. Use operator[] instead.
    UChar characterAt(unsigned index) const
    {
        if (!m_impl || index >= m_impl->length())
            return 0;
        return (*m_impl)[index];
    }

private:
    typedef struct ImplicitConversionFromWTFStringToBoolDisallowed* (String::*UnspecifiedBoolType);
    operator UnspecifiedBoolType() const;

    template <typename CharacterType>
    void removeInternal(const CharacterType*, unsigned, int);

    template <typename CharacterType>
    void appendInternal(CharacterType);

    RefPtr<StringImpl> m_impl;
};

#undef DISPATCH_CASE_OP

inline bool operator==(const String& a, const String& b) { return equal(a.impl(), b.impl()); }
inline bool operator==(const String& a, const LChar* b) { return equal(a.impl(), b); }
inline bool operator==(const String& a, const char* b) { return equal(a.impl(), reinterpret_cast<const LChar*>(b)); }
inline bool operator==(const LChar* a, const String& b) { return equal(a, b.impl()); }
inline bool operator==(const char* a, const String& b) { return equal(reinterpret_cast<const LChar*>(a), b.impl()); }
template<size_t inlineCapacity>
inline bool operator==(const Vector<char, inlineCapacity>& a, const String& b) { return equal(b.impl(), a.data(), a.size()); }
template<size_t inlineCapacity>
inline bool operator==(const String& a, const Vector<char, inlineCapacity>& b) { return b == a; }


inline bool operator!=(const String& a, const String& b) { return !equal(a.impl(), b.impl()); }
inline bool operator!=(const String& a, const LChar* b) { return !equal(a.impl(), b); }
inline bool operator!=(const String& a, const char* b) { return !equal(a.impl(), reinterpret_cast<const LChar*>(b)); }
inline bool operator!=(const LChar* a, const String& b) { return !equal(a, b.impl()); }
inline bool operator!=(const char* a, const String& b) { return !equal(reinterpret_cast<const LChar*>(a), b.impl()); }
template<size_t inlineCapacity>
inline bool operator!=(const Vector<char, inlineCapacity>& a, const String& b) { return !(a == b); }
template<size_t inlineCapacity>
inline bool operator!=(const String& a, const Vector<char, inlineCapacity>& b) { return b != a; }

inline bool equalIgnoringCase(const String& a, const String& b) { return equalIgnoringCase(a.impl(), b.impl()); }
inline bool equalIgnoringCase(const String& a, const LChar* b) { return equalIgnoringCase(a.impl(), b); }
inline bool equalIgnoringCase(const String& a, const char* b) { return equalIgnoringCase(a.impl(), reinterpret_cast<const LChar*>(b)); }
inline bool equalIgnoringCase(const LChar* a, const String& b) { return equalIgnoringCase(a, b.impl()); }
inline bool equalIgnoringCase(const char* a, const String& b) { return equalIgnoringCase(reinterpret_cast<const LChar*>(a), b.impl()); }

inline bool equalPossiblyIgnoringCase(const String& a, const String& b, bool ignoreCase)
{
    return ignoreCase ? equalIgnoringCase(a, b) : (a == b);
}

inline bool equalIgnoringNullity(const String& a, const String& b) { return equalIgnoringNullity(a.impl(), b.impl()); }

template<size_t inlineCapacity>
inline bool equalIgnoringNullity(const Vector<UChar, inlineCapacity>& a, const String& b) { return equalIgnoringNullity(a, b.impl()); }

inline bool operator!(const String& str) { return str.isNull(); }

inline void swap(String& a, String& b) { a.swap(b); }

// Definitions of string operations

template<size_t inlineCapacity>
String::String(const Vector<UChar, inlineCapacity>& vector)
    : m_impl(vector.size() ? StringImpl::create(vector.data(), vector.size()) : StringImpl::empty())
{
}

template<>
inline const LChar* String::getCharacters<LChar>() const
{
    ASSERT(is8Bit());
    return characters8();
}

template<>
inline const UChar* String::getCharacters<UChar>() const
{
    ASSERT(!is8Bit());
    return characters16();
}

inline bool String::containsOnlyLatin1() const
{
    if (isEmpty())
        return true;

    if (is8Bit())
        return true;

    const UChar* characters = characters16();
    UChar ored = 0;
    for (size_t i = 0; i < m_impl->length(); ++i)
        ored |= characters[i];
    return !(ored & 0xFF00);
}


#ifdef __OBJC__
// This is for situations in WebKit where the long standing behavior has been
// "nil if empty", so we try to maintain longstanding behavior for the sake of
// entrenched clients
inline NSString* nsStringNilIfEmpty(const String& str) {  return str.isEmpty() ? nil : (NSString*)str; }
#endif

inline bool String::containsOnlyASCII() const
{
    if (isEmpty())
        return true;

    if (is8Bit())
        return charactersAreAllASCII(characters8(), m_impl->length());

    return charactersAreAllASCII(characters16(), m_impl->length());
}

WTF_EXPORT int codePointCompare(const String&, const String&);

inline bool codePointCompareLessThan(const String& a, const String& b)
{
    return codePointCompare(a.impl(), b.impl()) < 0;
}

template<size_t inlineCapacity>
inline void append(Vector<UChar, inlineCapacity>& vector, const String& string)
{
    unsigned length = string.length();
    if (!length)
        return;
    if (string.is8Bit()) {
        const LChar* characters8 = string.characters8();
        vector.reserveCapacity(vector.size() + length);
        for (size_t i = 0; i < length; ++i)
            vector.uncheckedAppend(characters8[i]);
    } else {
        vector.append(string.characters16(), length);
    }
}

template<bool isSpecialCharacter(UChar), typename CharacterType>
inline bool isAllSpecialCharacters(const CharacterType* characters, size_t length)
{
    for (size_t i = 0; i < length; ++i) {
        if (!isSpecialCharacter(characters[i]))
            return false;
    }
    return true;
}

template<bool isSpecialCharacter(UChar)>
inline bool String::isAllSpecialCharacters() const
{
    size_t len = length();

    if (!len)
        return true;

    if (is8Bit())
        return WTF::isAllSpecialCharacters<isSpecialCharacter, LChar>(characters8(), len);
    return WTF::isAllSpecialCharacters<isSpecialCharacter, UChar>(characters16(), len);
}

template<size_t inlineCapacity>
inline void String::appendTo(Vector<UChar, inlineCapacity>& result, unsigned pos, unsigned len) const
{
    unsigned numberOfCharactersToCopy = std::min(len, length() - pos);
    if (!numberOfCharactersToCopy)
        return;
    result.reserveCapacity(result.size() + numberOfCharactersToCopy);
    if (is8Bit()) {
        const LChar* characters8 = m_impl->characters8();
        for (size_t i = 0; i < numberOfCharactersToCopy; ++i)
            result.uncheckedAppend(characters8[pos + i]);
    } else {
        const UChar* characters16 = m_impl->characters16();
        result.append(characters16 + pos, numberOfCharactersToCopy);
    }
}

template<typename BufferType>
inline void String::appendTo(BufferType& result, unsigned pos, unsigned len) const
{
    unsigned numberOfCharactersToCopy = std::min(len, length() - pos);
    if (!numberOfCharactersToCopy)
        return;
    if (is8Bit())
        result.append(m_impl->characters8() + pos, numberOfCharactersToCopy);
    else
        result.append(m_impl->characters16() + pos, numberOfCharactersToCopy);
}

template<size_t inlineCapacity>
inline void String::prependTo(Vector<UChar, inlineCapacity>& result, unsigned pos, unsigned len) const
{
    unsigned numberOfCharactersToCopy = std::min(len, length() - pos);
    if (!numberOfCharactersToCopy)
        return;
    if (is8Bit()) {
        size_t oldSize = result.size();
        result.resize(oldSize + numberOfCharactersToCopy);
        memmove(result.data() + numberOfCharactersToCopy, result.data(), oldSize * sizeof(UChar));
        StringImpl::copyChars(result.data(), m_impl->characters8() + pos, numberOfCharactersToCopy);
    } else {
        result.prepend(m_impl->characters16() + pos, numberOfCharactersToCopy);
    }
}

// StringHash is the default hash for String
template<typename T> struct DefaultHash;
template<> struct DefaultHash<String> {
    typedef StringHash Hash;
};

// Shared global empty string.
WTF_EXPORT const String& emptyString();
WTF_EXPORT const String& emptyString16Bit();
WTF_EXPORT extern const String& xmlnsWithColon;

// Pretty printer for gtest. Declared here to avoid ODR violations.
WTF_UNITTEST_HELPERS_EXPORT std::ostream& operator<<(std::ostream&, const String&);

} // namespace WTF

WTF_ALLOW_MOVE_AND_INIT_WITH_MEM_FUNCTIONS(String);

using WTF::CString;
using WTF::KeepTrailingZeros;
using WTF::StrictUTF8Conversion;
using WTF::StrictUTF8ConversionReplacingUnpairedSurrogatesWithFFFD;
using WTF::String;
using WTF::emptyString;
using WTF::emptyString16Bit;
using WTF::append;
using WTF::charactersAreAllASCII;
using WTF::charactersToIntStrict;
using WTF::charactersToUIntStrict;
using WTF::charactersToInt64Strict;
using WTF::charactersToUInt64Strict;
using WTF::charactersToInt;
using WTF::charactersToUInt;
using WTF::charactersToInt64;
using WTF::charactersToUInt64;
using WTF::charactersToDouble;
using WTF::charactersToFloat;
using WTF::equal;
using WTF::equalIgnoringCase;
using WTF::find;
using WTF::isAllSpecialCharacters;
using WTF::isSpaceOrNewline;
using WTF::reverseFind;

#include "wtf/text/AtomicString.h"

namespace std {
template<>
struct hash<WTF::String>
{
    std::size_t operator()(const WTF::String &s) const noexcept
    {
        return s.impl()->hash();
    }
};
}

#endif // WTFString_h
